Title :
Application of Modified RPL Under VANET-WSN Communication Architecture
Author :
Bin Tian ; Kun Mean Hou ; Hongling Shi ; Xing Liu ; Xunxing Diao ; Jianjin Li ; Yibo Chen ; Chanet, Jean-Pierre
Author_Institution :
LIMOS Lab., Blaise Pascal Univ., Clermont-Ferrand, France
Abstract :
This paper focuses on the routing protocol for driving safety that vehicle collects state message from roadside sensors in VANET-WSN. Routing Protocol for Low Power and Lossy Networks (RPL), a tree-based routing protocol, adapts naturally to our routing requirement. But RPL is designed for static wireless sensor network, so we need to modify RPL to fit in with high dynamic topology of VANET-WSN. For the first time, we utilize Geographical Information (GI) as the metric for RPL (GI-RPL), which lets RPL in a timely fashion. We also propose some strategies for tuning RPL in VANET-WSN. To demonstrate the performance of GI-RPL, we set up a simulation by using Cooja and compare with another modified RPL. The result of simulation shows that GI-RPL has high Package Delivery Ratio (PDR), reasonable overhead and low delay.
Keywords :
routing protocols; vehicular ad hoc networks; wireless sensor networks; GI-RPL; VANET-WSN communication architecture; dynamic topology; geographical information; lossy networks; modified RPL; package delivery ratio; roadside sensors; routing protocol; routing requirement; state message; static wireless sensor network; tree-based routing protocol; vehicular ad hoc network; Delays; Routing protocols; Safety; Sensors; Vehicles; Wireless sensor networks; Cooja; Geographical Information; IEEE 802.15.4; RPL; VANET; WSN;
Conference_Titel :
Computational and Information Sciences (ICCIS), 2013 Fifth International Conference on
Conference_Location :
Shiyang
DOI :
10.1109/ICCIS.2013.387
